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Evolution of the galaxy stellar mass function: evidence for an increasing <i>M</i>* from <i>z</i> = 2 to the present day

Nathan Adams, R. A. A. Bowler, M. J. Jarvis, Boris Häußler, Claudia del P. Lagos

2021Monthly Notices of the Royal Astronomical Society42 citationsDOIOpen Access PDF

Abstract

ABSTRACT Utilizing optical and near-infrared broad-band photometry covering &amp;gt;5 deg2 in two of the most well-studied extragalactic legacy fields (COSMOS and XMM-LSS), we measure the galaxy stellar mass function (GSMF) between 0.1 &amp;lt; z &amp;lt; 2.0. We explore in detail the effect of two source extraction methods (SExtractor and ProFound) in addition to the inclusion/exclusion of Spitzer IRAC 3.6 and 4.5 μm photometry when measuring the GSMF. We find that including IRAC data reduces the number of massive (log10(M/M⊙) &amp;gt; 11.25) galaxies found due to improved photometric redshift accuracy, but has little effect on the more numerous lower-mass galaxies. We fit the resultant GSMFs with double Schechter functions down to log10(M/M⊙) = 7.75 (9.75) at z = 0.1 (2.0) and find that the choice of source extraction software has no significant effect on the derived best-fitting parameters. However, the choice of methodology used to correct for the Eddington bias has a larger impact on the high-mass end of the GSMF, which can partly explain the spread in derived M* values from previous studies. Using an empirical correction to model the intrinsic GSMF, we find evidence for an evolving characteristic stellar mass with δlog10(M*/M⊙)/δz = $-0.16\pm 0.05 \, (-0.11\pm 0.05)$, when using SExtractor (ProFound). We argue that with widely quenched star formation rates in massive galaxies at low redshift (z &amp;lt; 0.5), additional growth via mergers is required in order to sustain such an evolution to a higher characteristic mass.

Topics & Concepts

PhysicsAstrophysicsGalaxyStellar massAstronomyGalaxy formation and evolutionInitial mass functionStar formationGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchStellar, planetary, and galactic studies
Evolution of the galaxy stellar mass function: evidence for an increasing <i>M</i>* from <i>z</i> = 2 to the present day | Litcius